詳細介紹
OX19 格蘭陰性變形桿菌單價血清學(xué)
廣州健侖生物科技有限公司
廣州健侖生物科技有限公司是集研制開發(fā)、銷售、服務(wù)于一體的高新技術(shù)企業(yè),公司產(chǎn)品涉及臨床快速診斷試劑、食品安全檢測試劑,違禁品快速檢測,動物疾病防疫檢測試劑,免疫診斷試劑、臨床血液學(xué)和體液學(xué)檢驗試劑、微生物檢驗試劑、分子生物學(xué)檢驗試劑、臨床生化試劑、有機試劑等眾多領(lǐng)域,同時核心代理Panbio、FOCUS、Qiagen、IBL、CORTEZ、Fuller、Inbios、BinaxNOW、LumuQuick、日本富士、日本生研等多家著名診斷產(chǎn)品集團公司產(chǎn)品,致力于為商檢單位、疾病預(yù)防控制中心、海關(guān)出入境檢疫局、衛(wèi)生防疫單位,jidu系統(tǒng),jiedu中心,檢驗檢疫單位、生化企業(yè)、科研院所、醫(yī)療機構(gòu)等機構(gòu)與行業(yè)提供*、高品質(zhì)的產(chǎn)品服務(wù)。此外,本公司還開展食品、衛(wèi)生、環(huán)境、藥品等多方面的第三方檢測服務(wù)。
我司長期供應(yīng)尼古?。商鎸帲z測試劑盒,違禁品檢測試劑盒,單卡檢測,3聯(lián)卡到12聯(lián)卡,可以自由組合,根據(jù)您的需求自由組合,*,性價比高,產(chǎn)品質(zhì)量很好。
保存要求:除了有特殊說明,免疫檢測產(chǎn)品應(yīng)保存在2-8°C
產(chǎn)品規(guī)格:2ml/瓶
保質(zhì)期:2年
本試劑盒主要用于對病菌細菌進行檢測,利用快速玻片凝集檢測技術(shù)
利用快速玻片凝集和對流免疫電泳(CIE)鑒定流感嗜血桿菌
格蘭陰性變形桿菌單價血清學(xué) OX19
格蘭陰性變形桿菌單價血清學(xué) OX19
OX19 格蘭陰性變形桿菌單價血清學(xué)
我司還有很多種血清學(xué)診斷血清、血液檢測、免疫檢測產(chǎn)品、毒素檢測、凝集檢測、酶免檢測、層析檢測、免疫熒光檢測產(chǎn)品,。
( MOB:楊永漢)
我司還提供其它進口或國產(chǎn)試劑盒:登革熱、瘧疾、流感、A鏈球菌、合胞病毒、腮病毒、乙腦、寨卡、黃熱病、基孔肯雅熱、克錐蟲病、違禁品濫用、肺炎球菌、軍團菌、化妝品檢測、食品安全檢測等試劑盒以及日本生研細菌分型診斷血清、德國SiFin診斷血清、丹麥SSI診斷血清等產(chǎn)品。
想了解更多的產(chǎn)品及服務(wù)請掃描下方二維碼:
【公司名稱】 廣州健侖生物科技有限公司
【市場部】 楊永漢
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【騰訊 】
【公司地址】 廣州清華科技園創(chuàng)新基地番禺石樓鎮(zhèn)創(chuàng)啟路63號二期2幢101-103
糖蛋白的空間結(jié)構(gòu)決定了它可以和哪一種糖基轉(zhuǎn)移酶結(jié)合,發(fā)生特定的糖基化修飾。許多糖蛋白同時具有N-連接的糖鏈和O-連接的糖鏈。O-連接的糖基化在高爾基體中進行,通常的一個連接上去的糖單元是N-乙酰半乳糖,連接的部位為Ser、Thr和Hy的OH基團,然后逐次將糖基轉(zhuǎn)移到上去形成寡糖鏈,糖的供體同樣為核苷糖,如UD-半乳糖。糖基化的結(jié)果使不同的蛋白質(zhì)打上不同的標記,改變多肽的構(gòu)象和增加蛋白質(zhì)的穩(wěn)定性。在高爾基體上還可以將一至多個氨基聚糖鏈通過木糖安裝在核心蛋白的絲氨酸殘基上,形成蛋白聚糖。這類蛋白有些被分泌到細胞外形成細胞外基質(zhì)或粘液層,有些錨定在膜上。細胞分泌活動負責(zé)對細胞合成的蛋白質(zhì)進行加工,分類,并運出,其過程是RER上合成蛋白質(zhì)→進入ER腔→以出芽形成囊泡→進入CGN→在medial Gdgi中加工→在TGN形成囊泡→囊泡與質(zhì)膜融合、排出。高爾基體對蛋白質(zhì)的分類,依據(jù)的是蛋白質(zhì)上的信號肽或信號斑。根據(jù)早期光鏡的觀察,已有人提出高爾基體與細胞的分泌活動有關(guān)。隨著現(xiàn)代科學(xué)的發(fā)展,運用電鏡、細胞化學(xué)及放射自顯影技術(shù)更進一步證實和發(fā)展了這個觀點。高爾基體在分泌活動中所起的作用,主要是將粗面型內(nèi)質(zhì)網(wǎng)運來的蛋白質(zhì)類的物質(zhì),起著加工(如濃縮或離析)、儲存和運輸?shù)淖饔?,zui后形成分泌泡。當形成的分泌泡自高爾基囊泡上斷離時,分泌泡膜上帶有高爾基囊膜所含有的酶,還能不斷起作用,促使分泌顆粒不斷濃縮、成熟,zui后排出細胞外。
The glycoprotein's steric structure determines which glycosyltransferase it can bind to and undergo specific glycosylation modifications. Many glycoproteins have both N-linked sugar chains and O-linked sugar chains. O-linked glycosylation is performed in the Golgi apparatus. Usually a ligated sugar unit is N-acetylgalactose. The linking sites are the OH groups of Ser, Thr, and Hy, and then the glycosyl groups are transferred one by one. The oligosaccharide chain is formed and the sugar donor is likewise a nucleoside sugar such as UD-galactose. As a result of glycosylation, different proteins are labeled differently, altering the conformation of the polypeptide and increasing the stability of the protein. One or more aminoglycans can also be placed on the serine residue of the core protein via xylose to form proteoglycans on the Golgi apparatus. Some of these proteins are secreted outside the cell to form extracellular matrix or mucus layers, some of which are anchored to the membrane. The cell secretory activity is responsible for processing, classifying, and transporting the proteins synthesized by the cells. The process is synthesizing proteins on the RER → entering the ER cavity → forming vesicles with budding → entering the CGN → processing in the medial Gdgi → forming vesicles on the TGN → Fusion and discharge of vesicles and plasma membrane. Golgi's classification of proteins is based on signal peptides or signal spots on proteins. According to the observation of the early light microscope, it has been proposed that the Golgi apparatus is involved in the secretion of cells. With the development of modern science, the use of electron microscopy, cytochemistry, and autoradiography has further confirmed and developed this idea. The role played by the Golgi apparatus in secretory activities is mainly the action of proteinaceous substances transported by the rough endoplasmic reticulum, such as processing (such as concentration or isolation), storage, and transportation, and the formation of secretory vesicles. When the secretory vacuole formed is separated from the Golgi vesicle, the secretory vesicles contain the enzyme contained in the Golgi membrane, which can continue to function, causing the secretory granules to continuously concentrate, mature, and finally discharge out of the cell.糖蛋白的空間結(jié)構(gòu)決定了它可以和哪一種糖基轉(zhuǎn)移酶結(jié)合,發(fā)生特定的糖基化修飾。許多糖蛋白同時具有N-連接的糖鏈和O-連接的糖鏈。O-連接的糖基化在高爾基體中進行,通常的一個連接上去的糖單元是N-乙酰半乳糖,連接的部位為Ser、Thr和Hy的OH基團,然后逐次將糖基轉(zhuǎn)移到上去形成寡糖鏈,糖的供體同樣為核苷糖,如UD-半乳糖。糖基化的結(jié)果使不同的蛋白質(zhì)打上不同的標記,改變多肽的構(gòu)象和增加蛋白質(zhì)的穩(wěn)定性。在高爾基體上還可以將一至多個氨基聚糖鏈通過木糖安裝在核心蛋白的絲氨酸殘基上,形成蛋白聚糖。這類蛋白有些被分泌到細胞外形成細胞外基質(zhì)或粘液層,有些錨定在膜上。細胞分泌活動負責(zé)對細胞合成的蛋白質(zhì)進行加工,分類,并運出,其過程是RER上合成蛋白質(zhì)→進入ER腔→以出芽形成囊泡→進入CGN→在medial Gdgi中加工→在TGN形成囊泡→囊泡與質(zhì)膜融合、排出。高爾基體對蛋白質(zhì)的分類,依據(jù)的是蛋白質(zhì)上的信號肽或信號斑。根據(jù)早期光鏡的觀察,已有人提出高爾基體與細胞的分泌活動有關(guān)。隨著現(xiàn)代科學(xué)的發(fā)展,運用電鏡、細胞化學(xué)及放射自顯影技術(shù)更進一步證實和發(fā)展了這個觀點。高爾基體在分泌活動中所起的作用,主要是將粗面型內(nèi)質(zhì)網(wǎng)運來的蛋白質(zhì)類的物質(zhì),起著加工(如濃縮或離析)、儲存和運輸?shù)淖饔?,zui后形成分泌泡。當形成的分泌泡自高爾基囊泡上斷離時,分泌泡膜上帶有高爾基囊膜所含有的酶,還能不斷起作用,促使分泌顆粒不斷濃縮、成熟,zui后排出細胞外。
The glycoprotein's steric structure determines which glycosyltransferase it can bind to and undergo specific glycosylation modifications. Many glycoproteins have both N-linked sugar chains and O-linked sugar chains. O-linked glycosylation is performed in the Golgi apparatus. Usually a ligated sugar unit is N-acetylgalactose. The linking sites are the OH groups of Ser, Thr, and Hy, and then the glycosyl groups are transferred one by one. The oligosaccharide chain is formed and the sugar donor is likewise a nucleoside sugar such as UD-galactose. As a result of glycosylation, different proteins are labeled differently, altering the conformation of the polypeptide and increasing the stability of the protein. One or more aminoglycans can also be placed on the serine residue of the core protein via xylose to form proteoglycans on the Golgi apparatus. Some of these proteins are secreted outside the cell to form extracellular matrix or mucus layers, some of which are anchored to the membrane. The cell secretory activity is responsible for processing, classifying, and transporting the proteins synthesized by the cells. The process is synthesizing proteins on the RER → entering the ER cavity → forming vesicles with budding → entering the CGN → processing in the medial Gdgi → forming vesicles on the TGN → Fusion and discharge of vesicles and plasma membrane. Golgi's classification of proteins is based on signal peptides or signal spots on proteins. According to the observation of the early light microscope, it has been proposed that the Golgi apparatus is involved in the secretion of cells. With the development of modern science, the use of electron microscopy, cytochemistry, and autoradiography has further confirmed and developed this idea. The role played by the Golgi apparatus in secretory activities is mainly the action of proteinaceous substances transported by the rough endoplasmic reticulum, such as processing (such as concentration or isolation), storage, and transportation, and the formation of secretory vesicles. When the secretory vacuole formed is separated from the Golgi vesicle, the secretory vesicles contain the enzyme contained in the Golgi membrane, which can continue to function, causing the secretory granules to continuously concentrate, mature, and finally discharge out of the cell.